CN216116134U - Digital environmental monitoring device of converter station - Google Patents

Abstract

The utility model discloses a digital environment monitoring device of a converter station, which comprises a support and a control module, wherein an open type frame is arranged on the support, a soil salinity sensor is arranged at the bottom of the support, a settlement sensor is arranged on a bottom plate of the open type frame, a partition plate is arranged in the open type frame, a dust raising sensor is arranged on the partition plate, a rainfall sensor, a snowfall sensor and a sensor fixer are further arranged on a top cover of the open type frame, and an environment temperature sensor, an environment humidity sensor, a PM10 sensor, a PM2.5 sensor, a wind speed sensor, a wind direction sensor, an atmospheric pressure sensor, a vibration sensor and a noise sensor are arranged in the sensor fixer. The device refines each operation executed by the environment monitoring system to functions, and has the characteristics of simple use, clear logic, perfect details and the like.

Description

Digital environmental monitoring device of converter station

Technical Field

The utility model belongs to the technical field of environment monitoring of converter stations, and particularly relates to a digital environment monitoring device for a converter station.

Background

The environmental monitoring of the converter station is an important guarantee work for the stable operation of the main equipment, the operation condition of the converter equipment is effectively sensed through the analysis and prejudgment of various environmental data, the management and control capability of operation and maintenance personnel is improved, and the safe and stable operation of a large power grid is ensured. At present, environmental monitoring means of the converter station mainly comprise meteorological hydrological monitoring, local temperature and humidity monitoring, factory boundary noise monitoring, equipment vibration noise monitoring, electromagnetic field monitoring, monitoring of soil temperature, humidity and water temperature and water level of an earth electrode site monitoring well and the like. However, the environment monitoring data has single type, low utilization rate and shallow excavation depth, and is often only used as an auxiliary basis, and the advantages and values of the large data cannot be fully played.

The traditional environmental monitoring of the converter station adopts the mode that testers are regularly arranged to carry out site distribution monitoring, has the defects of time and labor consumption, discontinuous monitoring, inconsistent monitoring point positions and the like, and is not beneficial to data storage, analysis, deep mining and utilization.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a digital environmental monitoring device for a converter station.

In order to solve the technical problem, the utility model discloses a digital environment monitoring device for a converter station, which comprises a support and a control module, wherein an open type frame is arranged on the support, a soil salinity sensor is arranged at the bottom of the support, a settlement sensor is arranged on a bottom plate of the open type frame, a partition plate is arranged in the open type frame, a dust raising sensor is arranged on the partition plate, a rainfall sensor, a snowfall sensor and a sensor fixer are further arranged on a top cover of the open type frame, and an environment temperature sensor, an environment humidity sensor, a PM10 sensor, a PM2.5 sensor, a wind speed sensor, a wind direction sensor, an atmospheric pressure sensor, a vibration sensor and a noise sensor are arranged in the sensor fixer.

Optionally, the soil salinity sensor is JXBS-3001-EC.

Optionally, the sedimentation sensor is of the type GH-TDS-30-B.

Optionally, the model of the dust sensor is LT-CG-S/D-005-A70H 00-2-12.

Optionally, the rainfall sensor and the snowfall sensor are ZZ-RSS-RS in model.

Optionally, the rainfall sensor, the snowfall sensor and the sensor holder are provided with an ambient temperature sensor, an ambient humidity sensor, a PM10 sensor, a PM2.5 sensor, a wind speed sensor, a wind direction sensor, an atmospheric pressure sensor and a noise sensor, and the model of the sensor holder is HCD 6818A.

Optionally, the control module comprises a server, and the server is connected with a data acquisition instrument and a power supply through a wire; the data acquisition instrument is connected with soil salinity sensor, settlement sensor, raise dust sensor, rainfall sensor, snowfall volume sensor, ambient temperature sensor, ambient humidity sensor, PM10 sensor, PM2.5 sensor, air velocity transducer, wind direction sensor, atmospheric pressure sensor, vibration sensor and noise sensor through the wire, the server is connected with cell-phone APP platform and PC end software platform through communication module.

Optionally, the data acquisition instrument is a CT1150 four-serial-port communication management server.

Optionally, the voltage of the power supply is 220V/24V.

Compared with the prior art, the utility model can obtain the following technical effects:

the device refines each operation executed by the environment monitoring system to functions, so that the system has the characteristics of simple use, clear logic, perfect details and the like.

Of course, it is not necessary for any one product in which the utility model is practiced to achieve all of the above-described technical effects simultaneously.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural diagram of a digital environment monitoring device of a converter station according to the present invention;

fig. 2 is a schematic structural diagram of a control module of the present invention.

In the figure, 1, a support, 2, an open type frame, 3, a soil salinity sensor, 4, a settlement sensor, 5, a partition board, 6, a dust raising sensor, 7, a top cover, 8, a rainfall sensor, 9, a snowfall sensor, 10, a sensor fixer, 11, an ambient temperature sensor, 12, an ambient humidity sensor, 13, a PM10 sensor, 14, a PM2.5 sensor, 15, a wind speed sensor, 16, a wind direction sensor, 17, an atmospheric pressure sensor, 18, a vibration sensor, 19, a noise sensor, 20, a control module, 21, a server, 22, a data acquisition instrument, 23, a power supply, 24, a communication module, 25, a mobile phone APP platform, 26 and a PC end software platform are arranged.

Detailed Description

The following embodiments are described in detail with reference to the accompanying drawings, so that how to implement the technical features of the present invention to solve the technical problems and achieve the technical effects can be fully understood and implemented.

The utility model discloses a digital environment monitoring device of a converter station, which is characterized by comprising a support 1 and a control module 10, wherein an open type frame 2 is arranged on the support 1, a soil salt sensor 3 is arranged at the bottom of the support 1, a settlement sensor 4 is arranged on a bottom plate of the open type frame 2, a partition plate 5 is arranged in the open type frame 2, a dust raising (TSP) sensor 6 is arranged on the partition plate 5, a rainfall sensor 8, a snow fall sensor 9 and a sensor fixer 10 are further arranged on a top cover 7 of the open type frame 2, and an environment temperature sensor 11, an environment humidity sensor 12, a PM10 sensor 13, a PM2.5 sensor 14, a wind speed sensor 15, a wind direction sensor 16, an atmospheric pressure sensor 17, a vibration sensor 18 and a noise sensor 19 are arranged in the sensor fixer 10.

Wherein, support 1 conveniently fixes each sensor and distribution device, makes things convenient for later installation.

In some embodiments, the soil salinity sensor 3 is model JXBS-3001-EC, which facilitates the determination of soil salinity.

In some embodiments, the sedimentation sensor 4 is of the type GH-TDS-30-B for determining surface sedimentation.

In some embodiments, the dust rising (TSP) sensor 6 is of the type LT-CG-S/D-005-A70H00-2-12, and is used for detecting the gray level of the environmental dust.

In some embodiments, the rainfall sensor 8 and the snowfall sensor 9 are of type ZZ-RSS-RS.

In some embodiments, the rainfall sensor 8, the snowfall sensor 9 and the sensor holder 10 are arranged in the sensor holder 10, and the environmental temperature sensor 11, the environmental humidity sensor 12, the PM10 sensor 13, the PM2.5 sensor 14, the wind speed sensor 15, the wind direction sensor 16, the atmospheric pressure sensor 17 and the noise sensor 19 are arranged in the sensor holder 10 and are of the model HCD6818A, and are used for detecting environmental factor data of rainfall, snowfall, temperature, humidity, PM10, PM2.5, wind speed, wind direction, atmospheric pressure and noise in the environment.

In some embodiments, the control module 10 includes a server 21, the server 21 is connected with a data acquisition instrument 22 and a power supply 23 through wires; data acquisition instrument 22 is connected with soil salinity sensor 3, subsides sensor 4, raise dust sensor 6, rainfall sensor 8, snowfall volume sensor 9, ambient temperature sensor 11, environment humidity transducer 12, PM10 sensor 13, PM2.5 sensor 14, air velocity transducer 15, wind direction sensor 16, atmospheric pressure sensor 17, vibration sensor 18 and noise sensor 19 through the wire, server 21 is connected with cell-phone APP platform 25 and PC end software platform 26 through communication module 24.

In some embodiments, the data acquisition instrument 22 is a CT1150 four-serial communication management server.

In some embodiments, the voltage of the power supply 23 is 220V/24V for powering the device of the present invention.

The installation and use method of the device is as follows: the sensor body equipment and the power distribution components are integrally installed on a bracket, when the sensor body equipment and the power distribution components are installed on site, the installation can be completed only by fixing the bracket on the ground of a point to be measured, the soil salinity, the settlement sensor 4, the raise dust sensor 6, the rainfall sensor 8, the snowfall sensor 9, the environment temperature sensor 11, the environment humidity sensor 12, the PM10 sensor 13, the PM2.5 sensor 14, the wind speed sensor 15, the wind direction sensor 16, the atmospheric pressure sensor 17, the vibration sensor 18 and the noise sensor 19 are used for acquiring the soil salinity, the ground settlement, the dust gray level, the rainfall, the snow quantity, the environment temperature, the humidity, the large PM value, the wind speed, the wind direction, the air pressure, the vibration, the noise and the soil conductivity in real time, and the mobile phone APP platform 25 and the PC terminal software platform 26 are used for real-time monitoring, inquiring, point position analysis, report processing and operation and maintenance management, the data analysis functions of remote monitoring, recording, viewing, searching, predicting and the like and visual graphical display are realized; the access modes of a website/App and other systems are technically supported, and the access convenience of a platform is improved; the working requirements of different role personnel such as environment monitoring personnel, equipment operation and maintenance manufacturers and the like are met in service.

According to the utility model, advanced technologies such as ground automatic monitoring, satellite remote sensing and unmanned aerial vehicle aerial photography are introduced into the converter station environment monitoring work, effective application and informatization construction of environment monitoring multi-source data are realized, various data including the vibration and noise level of converter station main equipment, the power frequency electromagnetic field level and the water and soil conservation effect can be rapidly mastered, the problems of untimely acquisition of converter station environment monitoring information, inadequate control and high labor cost are effectively solved, the environment monitoring and management work is mainly changed from traditional manual work to intelligent and dynamic in-process supervision, and the converter station environment monitoring technical level is comprehensively improved.

The device constructs an independent local area network combining a wired network and a wireless network, and is isolated from the existing network and the Internet. For having the barrier, be unfavorable for wireless transmission's the wired giga connected mode of adoption, adopt wireless WIFI's transmission mode to open area. All the front-end acquisition devices are equipped with corresponding network interfaces, and periodically transmit data acquired by the front-end acquisition devices to the server 21.

The device has the functions of data processing, image display, trend curve, data import, report export and the like. The device can further analyze the data, provide reference for equipment operation and set an out-of-limit alarm function. The communication protocol is unified, and the requirement of accessing other systems and other subsystems in the later period is met. The device has the advantages of systematicness, strong overall exhibition performance, and capability of being applied to later-stage total-station environmental monitoring through expansion and upgrading, and lays a foundation for the digital research of the total-station environmental monitoring.

The device fully considers efficiency, cost and necessity to make a corresponding server configuration scheme. The data transferred by the front end is stored in the server 21 in the form of a database.

While the foregoing description shows and describes several preferred embodiments of the utility model, it is to be understood, as noted above, that the utility model is not limited to the forms disclosed herein, but is not intended to be exhaustive of other embodiments and may be used in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed above, or as otherwise known in the relevant art. But variations and modifications which do not depart from the spirit and scope of the utility model should be construed as being included in the scope of the appended claims.

Claims (9)

1. The digital environment monitoring device for the converter station is characterized by comprising a support (1) and a control module (20), wherein an open type frame (2) is arranged on the support (1), a soil salinity sensor (3) is arranged at the bottom of the support (1), a settlement sensor (4) is arranged on a bottom plate of the open type frame (2), a partition plate (5) is arranged in the open type frame (2), a dust raising sensor (6) is arranged on the partition plate (5), a rainfall sensor (8), a snow fall sensor (9) and a sensor fixer (10) are further arranged on a top cover (7) of the open type frame (2), an environment temperature sensor (11), an environment humidity sensor (12), a PM10 sensor (13), a PM2.5 sensor (14), a wind speed sensor (15) are arranged in the sensor fixer (10), A wind direction sensor (16), an atmospheric pressure sensor (17), a vibration sensor (18), and a noise sensor (19).

2. The digital environmental monitoring device of a converter station according to claim 1, characterized in that the soil salinity sensor (3) is of the type JXBS-3001-EC.

3. The digital environmental monitoring arrangement of a converter station according to claim 1, characterized in that the sedimentation sensor (4) is of the type GH-TDS-30-B.

4. A converter station digitized environment monitoring arrangement according to claim 1, characterized in that said fugitive dust sensor (6) is of the type LT-CG-S/D-005-a70H 00-2-12.

5. A converter station digital environment monitoring arrangement according to claim 1, characterized in that said rainfall sensor (8) and said snowfall sensor (9) are of type ZZ-RSS-RS.

6. The digital environment monitoring device of the converter station according to claim 1, characterized in that the rainfall sensor (8), the snowfall sensor (9) and the sensor holder (10) are provided with an ambient temperature sensor (11), an ambient humidity sensor (12), a PM10 sensor (13), a PM2.5 sensor (14), a wind speed sensor (15), a wind direction sensor (16), an atmospheric pressure sensor (17) and a noise sensor (19) in the sensor holder (10) of model number HCD 6818A.

7. The digital environment monitoring device of the converter station according to claim 1, characterized in that said control module (20) comprises a server (21), said server (21) is connected with a data collector (22) and a power supply (23) through wires; data acquisition instrument (22) are connected with soil salinity sensor (3), subside sensor (4), raise dust sensor (6), rainfall sensor (8), snowfall volume sensor (9), ambient temperature sensor (11), ambient humidity sensor (12), PM10 sensor (13), PM2.5 sensor (14), air velocity transducer (15), wind direction sensor (16), atmospheric pressure sensor (17), vibration sensor (18) and noise sensor (19) through wire, server (21) are connected with cell-phone APP platform (25) and PC end software platform (26) through communication module (24).

8. The digital environment monitoring device of the converter station according to claim 7, wherein the data collector (22) is a CT1150 four-serial-port communication management server.

9. A converter station digitized environment monitoring arrangement according to claim 7, characterized in that the voltage of the power supply (23) is 220V/24V.

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